Add to ORKGPolymer-polymer complexation in solvent is studied using an extension of the self-consistent field theory. The model polymers are capable of forming ladder-like duplex structures. The duplex formation occurs with an abrupt change of entropy, resulting in a first-order transition. Moreover, the complexation can be stabilized by solvent-polymer interactions, instead of the usual specific binding interactions. Various types of unconventional phase diagrams are predicted. For example, phase separation with decreasing χ-parameter between duplex polymer and solvent can be induced, leading to a lower critical solution temperature (LCST) behavior. Multiphase coexistence points at which two, three, or four phases coexist are also obtained. Under ...
Using the language of the Flory chi parameter, we develop a theory that unifies the treatment of the...
The influence of the ratio between poor and good solvent on the stability and dynamics of supramolec...
Supramolecular building blocks assembling into helical aggregates are ubiquitous in the current lite...
Polymer-polymer complexation in solvent is studied using an extension of the self-consistent field t...
We present a theoretical model for predicting the phase behavior of polymer solutions in which phase...
Phase diagrams for reversibly associating one-end-functionalized chain molecules (with an emphasis o...
Phase separation of biomolecules could be mediated by both specific and non-specific interactions. H...
The cooperative association of ionic surfactants with polymer chains leads to quite novel features i...
Multivalent polymers are a key structural component of many biocondensates. When interacting with th...
A correct description of phase behaviour in polymer solutions requires a coupling between configurat...
The combination of (thermo)responsive polymers with supramolecular chemistry recently allowed the de...
We study the phase equilibrium and nucleation behavior of polymers in poor solvent by accounting for...
A self-consistent field theory is developed for polymers that are capable of binding small ionic mol...
We show analytically that in dilute solutions of high molecular weight polymers, a collapse transiti...
Using the language of the Flory chi parameter, we develop a theory that unifies the treatment of the...
The influence of the ratio between poor and good solvent on the stability and dynamics of supramolec...
Supramolecular building blocks assembling into helical aggregates are ubiquitous in the current lite...
Polymer-polymer complexation in solvent is studied using an extension of the self-consistent field t...
We present a theoretical model for predicting the phase behavior of polymer solutions in which phase...
Phase diagrams for reversibly associating one-end-functionalized chain molecules (with an emphasis o...
Phase separation of biomolecules could be mediated by both specific and non-specific interactions. H...
The cooperative association of ionic surfactants with polymer chains leads to quite novel features i...
Multivalent polymers are a key structural component of many biocondensates. When interacting with th...
A correct description of phase behaviour in polymer solutions requires a coupling between configurat...
The combination of (thermo)responsive polymers with supramolecular chemistry recently allowed the de...
We study the phase equilibrium and nucleation behavior of polymers in poor solvent by accounting for...
A self-consistent field theory is developed for polymers that are capable of binding small ionic mol...
We show analytically that in dilute solutions of high molecular weight polymers, a collapse transiti...
Using the language of the Flory chi parameter, we develop a theory that unifies the treatment of the...
The influence of the ratio between poor and good solvent on the stability and dynamics of supramolec...
Supramolecular building blocks assembling into helical aggregates are ubiquitous in the current lite...